甲烷燃烧室的仿真与优化研究

Jing-fang Xing, Hongliang Qu, Ji Hui, Xue-jing Zheng, Fangfang Hu, Ying-jie Wang
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引用次数: 0

摘要

本文对天然气热值直接计量实验平台燃烧室进行了仿真和优化。该材料利用ANSYS Fluent软件对甲烷在燃烧室中的燃烧进行了数值模拟,研究了不同混合气进气管长度、燃烧室直径、甲烷喷嘴直径对一氧化碳排放浓度的影响。为了促进甲烷的完全燃烧,通过一氧化碳排放浓度来确定更合适的燃烧室结构和大小。通过对各组分温度场、速度场、浓度场的对比分析,建议进气管长度设置为25mm,燃烧室直径设置为44mm,甲烷喷嘴直径设置为1.5 mm。优化后,一氧化碳排放浓度由27.9 PPM降至17.8 PPM,降幅达36.2%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Simulation and optimization study on the methane combustion chamber
This paper simulated and optimized the combustion chamber of the direct metering of the natural gas calorific value experimental platform. This material conducted a numerical simulation of methane combustion in the combustion chamber using ANSYS Fluent software, and the effects of different mixture inlet pipe length, combustion chamber diameter, and methane nozzle diameter on carbon monoxide emission concentration were studied. Aim to promote the complete combustion of methane, a more appropriate combustion chamber structure, and size were determined through carbon monoxide emission concentration. Through the comparison and analysis of the temperature field, velocity field, and concentration field of each component, it is suggested to set the length of the inlet pipe to 25 mm, and set the diameter of the combustion chamber and methane nozzle as 44 mm and 1.5 mm, respectively. After optimization, carbon monoxide emission concentration decreased from 27.9 PPM to 17.8 PPM, decreasing by 36.2%.
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